Математическое моделирование энергетических показателей основного технологического оборудования предприятий текстильной промышленности

Relevance: today, for the rational use of energy resources and reduction of energy costs at textile industry enterprises, including knitted and crocheted goods, mathematical modeling of energy indicators of process equipment is one of the urgent tasks. Mathematical modeling of energy indicators of process equipment at enterprises contributes to increasing the competitiveness of the textile industry, knitted and crocheted goods on a global scale, as well as the release of high-quality products in the local and international markets. At the same time, the installation of modern process equipment, in turn, allows for energy saving and rational use of energy resources, thereby increasing energy efficiency. Correct organization of the mathematical modeling process, as well as reducing the error of models, is an important task. It is necessary to conduct research and experimental studies to study the operating modes of electrical equipment, as well as to minimize the specific energy consumption without compromising the volume and quality of products. Mathematical modeling of energy indicators allows not only to increase production efficiency, but also to optimize the use of resources as much as possible, save labor costs and time.

Aim: mathematical modeling of energy indicators of process equipment to improve energy efficiency at textile industry enterprises.

Methods: mathematical statistics, probability theory and regression analysis methods were used for mathematical modeling of energy indicators of process equipment.

Results: mathematical modeling and practical implementation of energy indicators of process equipment allows enterprises to improve energy efficiency, optimize resource consumption, reduce production costs and ensure environmental sustainability.